Arizona State University researchers have developed a new software system capable of estimating greenhouse gas emissions across entire urban landscapes, all the way down to roads and individual buildings. Until now, scientists quantified carbon dioxide CO2 emissions at a much broader level.

Dubbed Hestia after the Greek goddess of the hearth and home, researchers presented the new system in an article published October 9 in Environmental Science and Technology. Hestia combines extensive public database data mining with traffic simulation and building by building energy consumption modeling. Its high resolution maps clearly identify CO2 emission sources in a way that policy makers can utilize and the public can understand.

Cities have had little information with which to guide reductions in greenhouse gas emissions - and you can't reduce what you can't measure, said Kevin Gurney, an associate professor in ASU's School of Life Sciences, and senior scientist with the Global Institute of Sustainability. With Hestia, we can provide cities with a complete, three dimensional picture of where, when and how carbon dioxide emissions are occurring.

So far, scientists have applied Hestia to the city of Indianapolis, Indiana, and work is ongoing for the cities of Los Angeles, California and Phoenix, Arizona. They hope to ultimately map the CO2 emissions in all major cities across the United States, which accounts for nearly one quarter of all global CO2 emissions. The Hestia research team believes this type of detailed emissions information can help determine what we as a society, can do locally and globally about climate change.

As a community, we must take a leadership role in sustaining our relationship with the environment, said ASU President Michael M. Crow. This research, and its implications for global engagement regarding climate change, is an exciting step forward. Hestia gives us the next tool we need to help policy makers create effective greenhouse gas legislation.

These results may also help overcome current barriers to the United States joining an international climate change treaty, agreed Gurney, Hestia's lead scientist. Many countries are unwilling to sign a treaty when greenhouse gas emission reductions cannot be independently verified.

According to researchers, Hestia's increased detail and accuracy will help cities, and possibly even other nations, identify where an investment in energy and greenhouse gas savings would have the greatest impact.

Leading in sustainability is not easy; however, as Mayor, I am committed to doing so, Phoenix Mayor Greg Stanton said. Undoubtedly, Hestia will be a good tool to help us make more informed decisions as leaders in Phoenix and the Valley around issues of air quality, health and a sustainable future.

With Hestia, researchers from Arizona State University have a detailed understanding of where CO2 is being emitted from the urban landscape. This map shows where CO2 is emitted across the city of Indianapolis, Indiana, and combines data from sources including factories, automobiles on roadways, homes, and power plants. Photo credit: Bedrich Benes and Michel Abdul Massih

Hestia offers practical information we can use to identify the most cost effective ways to reduce emissions and track progress over time, Gurney said. Scientists have spent decades describing the seriousness of climate change. Now, we are offering practical information to help do something about it.

Purdue Showalter Trust, Knauf Insulation, and the National Institute for Standards and Technology funded the three year Hestia project, which involved researchers Bedrich Benes and Michael Abdul Massih from Purdue's University Department of Computer Graphics and Technology.

Hestia is part of a larger effort that combines information about emissions with ground and satellite based measurements of atmospheric carbon dioxide concentration. It is now part of the INFLUX experiment in Indianapolis and is expected to complement NASA's planned December 2013 launch of the Orbital Carbon Observatory satellite, which will measure the concentration of CO2 in the Earth's atmosphere.

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